mirror of
https://github.com/trezor/trezor-firmware.git
synced 2024-11-29 19:08:12 +00:00
8147b11345
[no changelog]
328 lines
10 KiB
C
328 lines
10 KiB
C
/*
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* This file is part of the Trezor project, https://trezor.io/
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*
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* Copyright (c) SatoshiLabs
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdbool.h>
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#include "flash_common.h"
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#define COUNTER_TAIL_WORDS 0
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// Small items are encoded more efficiently.
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#define NORCOW_SMALL_ITEM_SIZE \
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(FLASH_BLOCK_SIZE - NORCOW_LEN_LEN - NORCOW_KEY_LEN)
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#define NORCOW_VALID_FLAG 0xFF
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#define NORCOW_VALID_FLAG_LEN 1
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#define NORCOW_DATA_OPT_SIZE (FLASH_BLOCK_SIZE - NORCOW_VALID_FLAG_LEN)
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#define NORCOW_MAX_PREFIX_LEN (FLASH_BLOCK_SIZE + NORCOW_VALID_FLAG_LEN)
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/**
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* Blockwise NORCOW storage.
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*
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* The items can have two different formats:
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*
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* 1. Small items
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* Small items are stored in one block, the first two bytes are the key, the
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* next two bytes are the length of the value, followed by the value itself.
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* This format is used for items with length <= NORCOW_SMALL_ITEM_SIZE.
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*
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* 2. Large items
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* Large items are stored in multiple blocks, the first block contains the key
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* and the length of the value.
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* Next blocks contain the value itself. If the last value block is not full,
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* it includes the valid flag NORCOW_VALID_FLAG. Otherwise the valid flag is
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* stored in the next block separately.
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* This format is used for items with length > NORCOW_SMALL_ITEM_SIZE.
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*
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*
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* For both formats, the remaining space in the blocks is padded with 0xFF.
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*/
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// Buffer for update bytes function, used to avoid writing partial blocks
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static flash_block_t norcow_write_buffer = {0};
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// Tracks how much data is in the buffer, not yet flashed
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static uint16_t norcow_write_buffer_filled = 0;
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// Key of the item being updated, -1 if no update is in progress
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static int32_t norcow_write_buffer_key = -1;
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/*
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* Writes data to given sector, starting from offset
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*/
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static secbool write_item(uint8_t sector, uint32_t offset, uint16_t key,
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const uint8_t *data, uint16_t len, uint32_t *pos) {
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if (sector >= NORCOW_SECTOR_COUNT) {
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return secfalse;
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}
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flash_block_t block = {((uint32_t)len << 16) | key};
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if (len <= NORCOW_SMALL_ITEM_SIZE) {
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// the whole item fits into one block, let's not waste space
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if (offset + FLASH_BLOCK_SIZE > NORCOW_SECTOR_SIZE) {
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return secfalse;
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}
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if (len > 0) {
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memcpy(&block[1], data, len); // write data
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}
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ensure(flash_unlock_write(), NULL);
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ensure(flash_area_write_block(&STORAGE_AREAS[sector], offset, block), NULL);
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ensure(flash_lock_write(), NULL);
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*pos = offset + FLASH_BLOCK_SIZE;
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} else {
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if (offset + FLASH_ALIGN(NORCOW_MAX_PREFIX_LEN + len) >
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NORCOW_SECTOR_SIZE) {
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return secfalse;
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}
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ensure(flash_unlock_write(), NULL);
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// write len
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ensure(flash_area_write_block(&STORAGE_AREAS[sector], offset, block), NULL);
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offset += FLASH_BLOCK_SIZE;
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*pos = FLASH_ALIGN(offset + NORCOW_VALID_FLAG_LEN + len);
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if (data != NULL) {
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// write all blocks except the last one
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while ((uint32_t)(len + NORCOW_VALID_FLAG_LEN) > FLASH_BLOCK_SIZE) {
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memcpy(block, data, FLASH_BLOCK_SIZE);
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ensure(flash_area_write_block(&STORAGE_AREAS[sector], offset, block),
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NULL);
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offset += FLASH_BLOCK_SIZE;
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data += FLASH_BLOCK_SIZE;
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len -= FLASH_BLOCK_SIZE;
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}
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// write the last block
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memset(block, 0xFF, sizeof(block));
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memcpy(block, data, len);
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((uint8_t *)block)[len] = NORCOW_VALID_FLAG;
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ensure(flash_area_write_block(&STORAGE_AREAS[sector], offset, block),
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NULL);
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}
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ensure(flash_lock_write(), NULL);
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}
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return sectrue;
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}
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/*
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* Reads one item starting from offset
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*/
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static secbool read_item(uint8_t sector, uint32_t offset, uint16_t *key,
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const void **val, uint16_t *len, uint32_t *pos) {
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*pos = offset;
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const void *k = norcow_ptr(sector, *pos, NORCOW_KEY_LEN);
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if (k == NULL) {
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return secfalse;
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}
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*pos += NORCOW_KEY_LEN;
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const void *l = norcow_ptr(sector, *pos, NORCOW_LEN_LEN);
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if (l == NULL) return secfalse;
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memcpy(len, l, sizeof(uint16_t));
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if (*len <= NORCOW_SMALL_ITEM_SIZE) {
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memcpy(key, k, sizeof(uint16_t));
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if (*key == NORCOW_KEY_FREE) {
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return secfalse;
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}
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*pos += NORCOW_LEN_LEN;
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} else {
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*pos = offset + FLASH_BLOCK_SIZE;
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uint32_t flg_pos = *pos + *len;
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const void *flg = norcow_ptr(sector, flg_pos, NORCOW_VALID_FLAG_LEN);
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if (flg == NULL) {
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return secfalse;
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}
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if (*((const uint8_t *)flg) != NORCOW_VALID_FLAG) {
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// Deleted item.
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*key = NORCOW_KEY_DELETED;
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} else {
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memcpy(key, k, sizeof(uint16_t));
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if (*key == NORCOW_KEY_FREE) {
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return secfalse;
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}
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}
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}
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*val = norcow_ptr(sector, *pos, *len);
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if (*val == NULL) return secfalse;
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if (*len <= NORCOW_SMALL_ITEM_SIZE) {
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*pos = FLASH_ALIGN(*pos + *len);
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} else {
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*pos = FLASH_ALIGN(*pos + *len + NORCOW_VALID_FLAG_LEN);
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}
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return sectrue;
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}
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void norcow_delete_item(const flash_area_t *area, uint32_t len,
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uint32_t val_offset) {
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uint32_t end;
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// Move to the beginning of the block.
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if (len <= NORCOW_SMALL_ITEM_SIZE) {
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// Will delete the entire small item, setting the length to 0
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end = val_offset + NORCOW_SMALL_ITEM_SIZE;
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val_offset -= NORCOW_LEN_LEN + NORCOW_KEY_LEN;
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} else {
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end = val_offset + len + NORCOW_VALID_FLAG_LEN;
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}
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// Delete the item head + data.
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ensure(flash_unlock_write(), NULL);
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flash_block_t block = {0};
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while (val_offset < end) {
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ensure(flash_area_write_block(area, val_offset, block), NULL);
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val_offset += FLASH_BLOCK_SIZE;
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}
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ensure(flash_lock_write(), NULL);
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}
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static secbool flash_area_write_bytes(const flash_area_t *area, uint32_t offset,
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uint16_t dest_len, const void *val,
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uint16_t len) {
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uint8_t *ptr = (uint8_t *)flash_area_get_address(area, offset, dest_len);
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if (val == NULL || ptr == NULL || dest_len != len) {
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return secfalse;
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}
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return memcmp(val, ptr, len) == 0 ? sectrue : secfalse;
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}
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secbool norcow_next_counter(uint16_t key, uint32_t *count) {
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uint16_t len = 0;
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const uint32_t *val_stored = NULL;
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if (sectrue != norcow_get(key, (const void **)&val_stored, &len)) {
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*count = 0;
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return norcow_set_counter(key, 0);
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}
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if (len != sizeof(uint32_t)) {
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return secfalse;
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}
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*count = *val_stored + 1;
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if (*count < *val_stored) {
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// Value overflow.
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return secfalse;
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}
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return norcow_set_counter(key, *count);
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}
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/*
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* Update the value of the given key. The value is updated sequentially,
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* starting from position 0, caller needs to ensure that all bytes are updated
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* by calling this function enough times.
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*
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* The new value is flashed by blocks, if the data
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* passed here do not fill the block it is stored until next call in buffer.
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*/
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secbool norcow_update_bytes(const uint16_t key, const uint8_t *data,
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const uint16_t len) {
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const void *ptr = NULL;
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uint16_t allocated_len = 0;
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if (sectrue != find_item(norcow_write_sector, key, &ptr, &allocated_len)) {
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return secfalse;
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}
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if (allocated_len <= NORCOW_SMALL_ITEM_SIZE) {
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// small items are not updated in place
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return secfalse;
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}
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uint32_t sector_offset =
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(const uint8_t *)ptr -
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(const uint8_t *)norcow_ptr(norcow_write_sector, 0, NORCOW_SECTOR_SIZE);
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const flash_area_t *area = &STORAGE_AREAS[norcow_write_sector];
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if (norcow_write_buffer_key != key && norcow_write_buffer_key != -1) {
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// some other update bytes is in process, abort
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return secfalse;
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}
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if (norcow_write_buffer_key == -1) {
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memset(norcow_write_buffer, 0xFF, sizeof(norcow_write_buffer));
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norcow_write_buffer_key = key;
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norcow_write_buffer_filled = 0;
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norcow_write_buffer_flashed = 0;
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}
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if (norcow_write_buffer_flashed + norcow_write_buffer_filled + len >
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allocated_len) {
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return secfalse;
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}
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uint16_t tmp_len = len;
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uint16_t flash_offset = sector_offset + norcow_write_buffer_flashed;
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ensure(flash_unlock_write(), NULL);
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while (tmp_len > 0) {
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uint16_t buffer_space = FLASH_BLOCK_SIZE - norcow_write_buffer_filled;
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uint16_t data_to_copy = (tmp_len > buffer_space ? buffer_space : tmp_len);
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memcpy(&((uint8_t *)norcow_write_buffer)[norcow_write_buffer_filled], data,
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data_to_copy);
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data += data_to_copy;
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norcow_write_buffer_filled += data_to_copy;
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tmp_len -= data_to_copy;
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bool all_data_received = (norcow_write_buffer_filled +
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norcow_write_buffer_flashed) == allocated_len;
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bool block_full = norcow_write_buffer_filled == FLASH_BLOCK_SIZE;
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if (block_full || all_data_received) {
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if (!block_full) {
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// all data has been received, add valid flag to last block
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((uint8_t *)norcow_write_buffer)[norcow_write_buffer_filled] =
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NORCOW_VALID_FLAG;
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}
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ensure(flash_area_write_block(area, flash_offset, norcow_write_buffer),
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NULL);
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flash_offset += FLASH_BLOCK_SIZE;
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if (block_full && all_data_received) {
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// last block of data couldn't fit the valid flag, write it in next
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// block
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memset(norcow_write_buffer, 0xFF, sizeof(norcow_write_buffer));
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((uint8_t *)norcow_write_buffer)[0] = NORCOW_VALID_FLAG;
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ensure(flash_area_write_block(area, flash_offset, norcow_write_buffer),
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NULL);
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flash_offset += FLASH_BLOCK_SIZE;
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}
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norcow_write_buffer_filled = 0;
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norcow_write_buffer_flashed += FLASH_BLOCK_SIZE;
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memset(norcow_write_buffer, 0xFF, sizeof(norcow_write_buffer));
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if (all_data_received) {
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norcow_write_buffer_key = -1;
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norcow_write_buffer_flashed = 0;
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}
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}
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}
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ensure(flash_lock_write(), NULL);
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return sectrue;
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}
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